A pilot-scale bioreactor for new food pilot processes
GEA Axenic® P is a flexible pilot-scale bioreactor designed to help you scale up cell cultivation and precision fermentation processes for a wide range of new food applications.
The Axenic® P is a highly versatile, fully featured bioreactor that puts you in control when it’s time to transfer your bench-scale cell cultivation and fermentation processes into a pilot-scale production setup. Designed specifically for new food applications, the pilot-scale Axenic® P helps you derive key data that will let you more seamlessly transition up to commercial manufacture, whether you are developing cultivated meat, precision-engineered dairy products, or a fungal mycelium.
We have decades of expertise developing and installing industrial bioreactors for the global brewery, dairy and pharma sectors, as well as for emerging new food applications. We’ve used this detailed understanding of all the complexities associated with bioprocessing at commercial scale, to develop a versatile, industrially relevant pilot-scale bioreactor. The Axenic® P accurately recapitulates conditions in factory units, including our Axenic® C and Axenic® M bioreactors, to generate actionable insight on how key factors such as oxygen transfer rates, pH changes and media concentrations, as well as bioreactor structure and physical setup, impact on cell health, process stability and, ultimately, yield.
The Axenic® P supports a wide range of physical bioreactor configurations and operating conditions, and features a package of sensors that that collect key data on tank conditions, gas delivery and uptake. If you need to take a deeper dive into understanding how your strain behaves in certain environments we offer an optional suite of sensors to measure off gas analysis, metabolic heat generation and acidification rates. The Axenic® P in addition uses the same recipe management system, GEA Codex® automation platform and GEA Codex® Historian data management platform as our industrial bioreactor units.
The collective data derived from testing your cells and process on the Axenic® P will give you a great starting point for understanding how your cells will behave as you upscale, so you can make modifications and adjustments to process parameters and the bioreactor environment, which you can evaluate through additional rounds of testing on the unit. We can also transfer, more or less directly, just about all of your pilot-scale process, sensor and physical data – down to the bioreactor dimensions – into a digital twin on our virtual bioreactor test bench. The digital twin lets us carry out risk free modelling to assess what happens within the tank, and how your cells might respond, as you scale up to industrial volumes. Virtual modelling gives us free rein to investigate and better understand how media and gases are distributed and behave under different conditions as the volume increases. This helps us to outline what your cells will need, and where there may be limitations, or a risk that the upscaled system may generate conditions that hinder or have an adverse effect on, your cells. This actionable insight then lets us design and fine tune the best physical bioreactor, and outline optimum operating conditions, for your commercial process.
Unlike pilot scale systems and single-use bioreactors that are only suitable for specific cell types or processes, the Axenic P is designed for life, and to let you evaluate a wide range of cell types, processes and setups. The unit is fully reusable, features swappable components, including autoclavable parts and integrated CIP. Multiple inlets for media and gas delivery allow you to configure the system for fermentation or cultivation using a wide range of prokaryotic or eukaryotic cell types.
The Axenic® P can be configured as a standalone, self-contained unit into which you can dose media and other ingredients manually. The unit can also be connected, via replaceable hoses and its bank of inlets/outlets, to media tanks and upstream and downstream equipment. Importantly, the design is also relatively simple and user friendly, so you have flexibility to manually adjust and fine tune. However you configure the unit, it’s relatively straightforward to swap key components to suit application, cell type, and conditions. For example, you can change the agitator impellers, or take them out to use the system as a bubble column. Once purchased, we expect your Axenic® P to give you a lifetime of service, both for developing new cell-based products in the new foods sector, and also as a test system for troubleshooting existing commercial processes.
We know how important it is to consider process sustainability, and so we are always looking to develop and implement technologies and practices that can ultimately help to reduce energy and resource use, and improve carbon footprint.
The Axenic® P system uses split range control technology to adjust oxygen delivery in the bioreactor by letting you independently control the delivery flow rate, or the agitator speed. This makes it possible to run the most energy efficient path for increasing oxygen delivery. We can provide the starting settings, and then further optimize those parameters as you scale up.
Also helping to reduce environmental impact, GEA has developed a range of aseptic valves, and CIP spray nozzles, so that you can maintain the Axenic® P equipment with the least possible disruption to uptime, and with minimal manual intervention, where possible. Our component designs could potentially save on water, cleaning fluids, and cleaning time, by enabling faster maintenance, and effective, efficient CIP. Even small changes that can help reduce the use of resources, create less waste, reduce risks and manual tasks, and improve up time, can collectively have a positive impact on process sustainability.
Axenic is registered as a trademark in several countries worldwide.
The GEA Axenic C product line is an industrial-scale bioreactor system that has been designed specifically for cultivating mammalian and other eukaryotic cells in the food industry.
The GEA Axenic® M product line is an industrial-scale bioreactor system that has been designed specifically for cultivation and precision fermentation in the food industry.
GEAでは最新の数値流体力学ツールと運動学モデルを高度な計算能力と組み合わせることにより、ラボベンチから産業規模まで、あらゆるバイオリアクター環境をデジタル的に反映することができる技術を開発しました。
細胞農業の新興分野のイノベーションをサポートするため、New Food Application and Technology Center of Excellence (ATC) が中央ハブとして設立されました。このGEAの施設は、最先端のバイオリアクターおよび精密発酵、および割り当てられた上流側と下流側の技術を非常に柔軟なパイロットスケールのセットアップに提供し、醗酵および細胞培養プロセスを試し、スケールアップに向けて作業することができるようにします。
健康で幸せな乳牛は、持続可能な生乳生産を成功させる鍵です。したがって、乳牛を健康に保つことは、すべての酪農家の取り組みの中心にあります。個々の乳牛のニーズに合わせた適切な給餌、良好な飼育環境、新鮮な空気、水、光など、多くの要因が乳牛の健康に影響を与えます。しかし同時に、搾乳方法は乳牛の健康状態に大きな影響を与えます。GEAは「Good Cow Milking」の理念でよく知られており、家畜の健康と乳質においてより良い結果を出すために、常にさら...
どの業界も、厳しい脱炭素規制や法規制を乗り越えながら、ネットゼロの目標達成に向けて懸命に取り組んでいます。同時に、企業は、品質、製品開発、プロセスの最適化に対する高まる要求のバランスを取りながら、収益性の向上に努めなければなりません。この課題には、GEAが提供するような協調的かつ包括的なアプローチが必要です。
コーヒー、カカオ、牛乳、肉、魚、卵。こういった毎日の定番ともいえる食材は、集約農業に大きく依存しています。ニューフード技術の台頭に伴い、これまで以上に持続可能な代替食品を使用できるようになりました。そこで今回は、GEA で液体・発酵・充填担当上級副社長を務めるライマー・グッテ博士と対談し、その可能性と政策について探ってみました。